CN210104954U - A low-carbon energy-saving sun room building - Google Patents

Abstract

The utility model discloses a low-carbon energy-saving sunlight room building, which comprises a front pillar, a rear pillar and a transparent sun shield fixedly arranged at the top ends of the front pillar and the rear pillar, wherein the transparent sun shield is of a double-layer structure, two slide rails are arranged in the hollow layer of the transparent sun shield, the slide rails are sequentially provided with a fixed solar panel, a first movable solar panel and a second movable solar panel layer by layer from top to bottom, the fixed solar panel is fixedly arranged on the slide rails, the first movable solar panel and the second movable solar panel are movably arranged on the slide rails, the upper surfaces of the first movable solar panel and the second movable solar panel are both provided with a screw driving sleeve, the two screw driving sleeves are commonly connected with a lifting lead screw, the top end of the lifting lead screw is connected with a driving motor, and the driving motor is fixedly arranged on the rear pillar, the utility, meanwhile, the solar energy can be collected and reused, and the solar energy collecting device has the characteristics of low carbon and energy saving.

Description

A low-carbon energy-saving sun room building

technical field

The utility model relates to the technical field of architectural design, in particular to a low-carbon energy-saving sun room building.

Background technique

Sun room is also called glass room. Sun room is a non-traditional building built with glass and metal frame to achieve the purpose of enjoying the sun and getting close to nature. Sun room is a building respected by people who pursue nature and fashion at home and abroad. Sunroom is a victory industry researched in North China and Shanghai. It needs to be designed and constructed according to the needs of the place and personal preferences. The interior layout can be decorated according to personal preferences. The balcony or terrace sun room is in the whole living room, so visual connectivity is very important. It needs to be considered that it should be consistent with the overall style of the building, and the overall color tone should be as consistent as possible.

The sun room is mainly close to the sun, it connects the indoor and outdoor spaces, so it should not only be in natural harmony with the outdoor space, but also in line with the overall style of the living room, so as to achieve a transitional effect. The sun room is not only a place to relax and rest, but also the best meeting and leisure area.

However, the existing sun room buildings are mostly constructed with transparent glass and metal frames. Due to the good light transmittance of transparent glass, there is sufficient sunlight in the sun room. When the demand for light is small or the temperature in the sun room is high, it cannot be adjusted, and there are certain defects.

To this end, we propose a low-carbon energy-saving sun room building.

Utility model content

The utility model provides a low-carbon energy-saving sun room building, which aims to adjust the sunlight irradiation area in the sun room and ensure the comfort of the environment in the sun room.

In order to realize the above-mentioned technical purpose and achieve the above-mentioned technical effect, the present invention is realized through the following technical solutions:

A low-carbon energy-saving sun room building, comprising a front pillar, a rear pillar, and a transparent sunshade fixedly installed at the top of the front pillar and the rear pillar, the transparent sunshade is a double-layer structure, and the transparent sunshade has a hollow space. Two sliding rails are installed symmetrically in layers. The sliding rails are sequentially installed with a fixed solar panel, a first movable solar panel and a second movable solar panel in layers from top to bottom. The fixed solar panel is fixedly installed on the sliding rail. , the first movable solar panel and the second movable solar panel are both slidably installed on the slide rail, and the surfaces of the first movable solar panel and the second movable solar panel are fixedly installed with threaded drive sleeves, A lift screw is threadedly connected to the two threaded drive sleeves, and a drive motor is drivingly connected to the top of the lift screw, and the drive motor is fixedly mounted on the rear pillar.

Preferably, in the above-mentioned low-carbon energy-saving sun room building, both the first movable solar panel and the second movable solar panel are movably installed in the slide rail through pulleys.

Based on the above technical features, the first movable solar panel and the second movable solar panel are slidably installed in the slide rail through pulleys, which reduces sliding wear on the one hand, and ensures smoothness of up and down sliding on the other hand.

Preferably, in the above-mentioned low-carbon energy-saving sun room building, the lifting screw is a reciprocating screw.

Based on the above technical features, the lifting screw adopts a reciprocating screw, which can realize the expansion and storage of the solar panel under the one-way drive of the driving motor.

Preferably, in the above-mentioned low-carbon energy-saving sun room building, reinforcement frames are fixedly installed between the two front pillars, between the two rear pillars, and between the front pillar and the rear pillar.

Based on the above technical features, by installing the reinforcement frame, the strength of the support structure of the sun room building is improved, and the transparent sunshade and the solar panel are provided with solid support.

Preferably, in the above-mentioned low-carbon energy-saving sun room building, the driving motor and the lifting screw are connected through a worm gear transmission.

Based on the above technical features, the drive connection between the drive motor and the lifting screw is performed by the worm gear, and the self-locking function of the worm gear and worm can be used to keep the solar panel stationary at the designated position.

Preferably, in the above-mentioned low-carbon energy-saving sun room building, a protective box is fixedly installed on the top of the transparent sunshade, and the protective box is located above the driving motor.

Based on the above technical features, by providing a protective box, on the one hand, it can protect the driving motor, and on the other hand, it can prevent external rainwater from entering the hollow layer of the transparent sunshade.

The beneficial effects of the present utility model are:

The utility model realizes the adjustment of the sunlight irradiation area in the sun room by driving the expansion and contraction of the solar panel by the driving motor, provides a good sunlight irradiation environment for the sun room, and can collect and reuse solar energy, and has the characteristics of low carbon and energy saving.

Description of drawings

In order to illustrate the technical solutions of the embodiments of the present invention more clearly, the accompanying drawings required for the description of the embodiments will be briefly introduced below. Obviously, the drawings in the following description are only some embodiments of the present invention. For those of ordinary skill in the art, other drawings can also be obtained from these drawings without creative effort.

Fig. 1 is the overall structure schematic diagram of the present utility model;

FIG. 2 is a schematic view of the structure of the slide rail of the present invention.

In the accompanying drawings, the list of components represented by each number is as follows:

1-front pillar; 2-rear pillar; 3-transparent sun visor; 4-slide rail; 5-fixed solar panel; 6-first movable solar panel; 7-second movable solar panel; 8-threaded drive sleeve; 9 -Lifting screw; 10-Drive motor; 11-Pulley; 12-Reinforcement frame; 13-Turbo worm; 14-Protective box.

Detailed ways

The technical solutions in the embodiments of the present utility model will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present utility model. Obviously, the described embodiments are only a part of the embodiments of the present utility model, rather than all the implementations. example. Based on the embodiments of the present invention, all other embodiments obtained by those of ordinary skill in the art without creative work fall within the protection scope of the present invention.

1-2, the present embodiment is a low-carbon energy-saving sun room building, including a front pillar 1, a rear pillar 2, and a transparent sunshade 3 fixed on the top of the front pillar 1 and the rear pillar 2. The two Between the front pillars 1, between the two rear pillars 2, and between the front pillars 1 and the rear pillars 2, a reinforcement frame 12 is fixedly installed. The sunshade 3 and the solar panel provide firm support. The transparent sunshade 3 has a double-layer structure. Two sliding rails 4 are symmetrically installed in the hollow layer of the transparent sunshade 3. The sliding rails 4 are installed in layers from top to bottom. The panel 5 , the first movable solar panel 6 and the second movable solar panel 7 , the fixed solar panel 5 is fixedly installed on the slide rail 4 , and the first movable solar panel 6 and the second movable solar panel 7 are movably installed on the slide through the pulley 11 . In the rail 4, the first movable solar panel 6 and the second movable solar panel 7 are slidably installed in the sliding rail 4 through the pulley 11. The upper surfaces of the movable solar panel 6 and the second movable solar panel 7 are fixedly installed with a threaded driving sleeve 8, and a lifting screw 9 is threadedly connected to the two threaded driving sleeves 8. The top of the lifting screw 9 is driven and connected with a driving motor 10. And the driving motor 10 is fixedly installed on the rear pillar 2, the lifting screw 9 adopts a reciprocating screw, and the lifting screw 9 adopts a reciprocating screw, which can realize the stretching and storage of the solar panel under the one-way drive of the driving motor 10, and the driving The motor 10 and the lifting screw 9 are connected by the worm gear 13, and the driving connection between the driving motor 10 and the lifting screw 9 is carried out through the worm gear 13, and the self-locking function of the worm gear 13 can be used to realize the solar panel in the designated position. Keep still, a protective box 14 is fixedly installed at the top of the transparent sunshade 3, and the protective box 14 is located above the driving motor 10. By setting the protective box 14, on the one hand, it can protect the driving motor 10. External rainwater enters the hollow layer of the transparent sunshade 3 .

A specific implementation of the present utility model, when in use, controls the driving motor 10 to expand and contract the solar panel, thereby realizing the adjustment of the sunlight irradiated area in the sun room. The specific work flow is as follows: the rotation of the driving motor 10 drives the lifting screw 9, the threaded drive sleeve 8 threadedly connected with the lift screw 9 cannot rotate with the lift screw 9 under the limiting action of the slide rail 4, and the threaded drive sleeve 8 can only move up and down along the length of the lift screw 9. The reciprocating motion realizes the telescopic motion of the solar panel. When the solar panel reaches the appropriate position, the drive motor 10 is turned off. Under the self-locking action of the worm gear 13, the solar panel is locked, and the adjustment of the irradiation area of the sun room is completed. In addition, the fixed solar panel 5 , the first movable solar panel 6 and the second movable solar panel 7 can also convert solar energy into electrical energy, which realizes the collection and reuse of solar energy, and has the characteristics of low carbon and energy saving.

In the description of this specification, description with reference to the terms "one embodiment", "example", "specific example", etc. means that a specific feature, structure, material or characteristic described in connection with the embodiment or example is included in the present invention. in at least one embodiment or example. In this specification, schematic representations of the above terms do not necessarily refer to the same embodiment or example. Furthermore, the particular features, structures, materials or characteristics described may be combined in any suitable manner in any one or more embodiments or examples.

The preferred embodiments of the present invention disclosed above are only used to help illustrate the present invention. The preferred embodiments do not exhaustively describe all the details, nor do they limit the invention to specific embodiments only. Obviously, many modifications and variations are possible in light of the content of this specification. This specification selects and specifically describes these embodiments in order to better explain the principle and practical application of the present invention, so that those skilled in the art can well understand and utilize the present invention. The present invention is limited only by the claims and their full scope and equivalents.

Claims (6)

1. A low-carbon energy-saving sun room building, characterized in that it comprises a front pillar (1), a rear pillar (2) and a transparent sunshade fixedly installed on the top of the front pillar (1) and the rear pillar (2). (3), the transparent sunshade (3) is a double-layer structure, and two sliding rails (4) are symmetrically installed in the hollow layer of the transparent sunshade (3), and the sliding rails (4) are arranged from top to bottom. A fixed solar panel (5), a first movable solar panel (6) and a second movable solar panel (7) are sequentially installed in layers, and the fixed solar panel (5) is fixedly installed on the slide rail (4), The first movable solar panel (6) and the second movable solar panel (7) are both slidably mounted on the slide rail (4), and the first movable solar panel (6) and the second movable solar panel (7) A threaded driving sleeve (8) is fixedly installed on the upper surface, and a lifting screw (9) is threadedly connected to the two threaded driving sleeves (8), and the top of the lifting screw (9) is driven by a A drive motor (10) is fixedly mounted on the rear pillar (2). 2. A low-carbon energy-saving sun room building according to claim 1, characterized in that: both the first movable solar panel (6) and the second movable solar panel (7) pass through pulleys (11) The activity is installed in the slide rail (4). 3. A low-carbon energy-saving sun room building according to claim 1, characterized in that: the lifting screw (9) adopts a reciprocating screw. 4. A low-carbon energy-saving sun room building according to claim 1, characterized in that: between the two front pillars (1), between the two rear pillars (2) and the front pillars (2) A reinforcement frame (12) is fixedly installed between the pillar (1) and the rear pillar (2). 5 . The low-carbon energy-saving sun room building according to claim 1 , wherein the driving motor ( 10 ) and the lifting screw ( 9 ) are connected by a worm gear ( 13 ). 6 . 6. A low-carbon energy-saving sun room building according to claim 1, characterized in that: a protective box (14) is fixedly installed on the top of the transparent sunshade (3), and the protective box (14) is located in the above the drive motor (10).

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